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Identification and Optimization of a Ligand-Efficient Benzoazepinone Bromodomain and Extra Terminal (BET) Family Acetyl-Lysine Mimetic into the Oral Candidate Quality Molecule I-BET432.

Philip G HumphreysNiall A AndersonPaul BamboroughAndrew BaxterChun-Wa ChungRosa CooksonPeter D CraggsToryn DaltonJulie C L FournierLaurie J GordonHeather F GrayMatthew W GrayRichard GregoryDavid J HirstCraig J JamiesonKatherine L JonesHripsimee KessedjianDavid LugoGrant McGonagleVipulkumar K PatelChristopher PattenDarren L PooleRab K PrinjhaCesar Ramirez-MolinaInmaculada RiojaGail SealKayleigh A J StaffordRishi R ShahDaniel TapeNatalie H TheodoulouLaura TomlinsonSabri UkuserIan D WallNatalie WellawayGemma White
Published in: Journal of medicinal chemistry (2022)
The bromodomain and extra terminal (BET) family of proteins are an integral part of human epigenome regulation, the dysregulation of which is implicated in multiple oncology and inflammatory diseases. Disrupting the BET family bromodomain acetyl-lysine (KAc) histone protein-protein interaction with small-molecule KAc mimetics has proven to be a disease-relevant mechanism of action, and multiple molecules are currently undergoing oncology clinical trials. This work describes an efficiency analysis of published GSK pan-BET bromodomain inhibitors, which drove a strategic choice to focus on the identification of a ligand-efficient KAc mimetic with the hypothesis that lipophilic efficiency could be drastically improved during optimization. This focus drove the discovery of the highly ligand-efficient and structurally distinct benzoazepinone KAc mimetic. Following crystallography to identify suitable growth vectors, the benzoazepinone core was optimized through an explore-exploit structure-activity relationship (SAR) approach while carefully monitoring lipophilic efficiency to deliver I-BET432 ( 41 ) as an oral candidate quality molecule.
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